ON THE CONSISTENCY OF LEAST SQUARES ESTIMATOR IN MODELS SAMPLED AT RANDOM TIMES DRIVEN BY LONG MEMORY NOISE: THE JITTERED CASE

Héctor Araya; Natalia Bahamonde; Lisandro Fermín; Tania Roa; Soledad Torres

doi:10.5705/ss.202020.0323

ON THE CONSISTENCY OF LEAST SQUARES ESTIMATOR IN MODELS SAMPLED AT RANDOM TIMES DRIVEN BY LONG MEMORY NOISE: THE JITTERED CASE

Héctor Araya, Natalia Bahamonde, Lisandro Fermín, Tania Roa, Soledad Torres

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3 Scopus citations

Abstract

In numerous applications, data are observed at random times. Our main purpose is to study a model observed at random times that incorporates a long-memory noise process with a fractional Brownian Hurst exponent H. We propose a least squares estimator in a linear regression model with long-memory noise and a random sampling time called “jittered sampling”. Specifically, there is a fixed sampling rate 1/N, contaminated by an additive noise (the jitter) and governed by a probability density function supported in [0,1/N]. The strong consistency of the estimator is established, with a convergence rate depending on N and the Hurst exponent. A Monte Carlo analysis supports the relevance of the theory and produces additional insights, with several levels of long-range dependence (varying the Hurst index) and two different jitter densities.

Original language	English
Pages (from-to)	331-351
Number of pages	21
Journal	Statistica Sinica
Volume	33
Issue number	1
DOIs	https://doi.org/10.5705/ss.202020.0323
State	Published - Jan 2023
Externally published	Yes

Keywords

Least squares estimator
long-memory noise
random times
regression model

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AU - Torres, Soledad

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ON THE CONSISTENCY OF LEAST SQUARES ESTIMATOR IN MODELS SAMPLED AT RANDOM TIMES DRIVEN BY LONG MEMORY NOISE: THE JITTERED CASE

Abstract

Keywords

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